Method for content-Based Non-Linear Control of Multimedia Playback

ABSTRACT

A system and method are provided for content-based non-linear control of video data playback. A multimedia database having multimedia data including multimedia content data is searched based on a user query to determine a first set of multimedia data. The multimedia data includes indexes to and condensed representations of corresponding video data stored in a video database. A portion of the first set of multimedia data is displayed at a control device in response to the user query. A user of the control device selects an element of the first set of multimedia data for video playback and video data corresponding to the element delivered to a video device for playback. A user of the control device selects an element of the first set of multimedia data for additional information and a second set of multimedia data corresponding to the element delivered to the control device.

PRIORITY INFORMATION

The present invention is a continuation of U.S. patent application Ser.No. 10/146,300, filed May 14, 2002 which is a non-provisional of U.S.Patent Provisional Application No. 60/290,788, filed May 14, 2001, thecontent of which is incorporated herein in its entirety by reference.

FIELD OF THE INVENTION

The present invention generally relates to the control and playback ofuser selected video material based on the content of the video material.

BACKGROUND OF THE INVENTION

Audio and video signal streams, whether carrying analog or digitallyencoded information, have come to represent a significant source ofconsumer information and entertainment. Traditionally such signalstreams were provided to consumers over radio frequency bands throughuse of a transmitter and a receiver. Changes in distribution methodshave led to the use of various alternative devices such as cable set topboxes, video recorder/player devices such as cassette recorders andvideo disc players, or direct live video sources such as home cameras,game systems, and computers, and other alternative devices. As suchdevices have proliferated, so too have their associated control devicessuch that consumers are frequently faced with a proliferation of controldevices. For example, in “home theater systems” having numerousinterconnected devices, several or even all the devices may have its owncontrol device which enables the consumer to control the functionalityof the respective device remotely without directly manipulating controlson the device.

In addition, increased availability of networks for the transmission ofsignal streams has vastly increased the number and variety ofinformation and entertainment services available to consumers. As aresult, consumers have trouble keeping informed as to the scheduling ofavailable services. Accordingly, some cable television systems provide adedicated channel that displays a current programming guide forscheduled services. However, such a channel typically slowly scrolls alimited and fixed amount of information, usually only one to three hoursof program scheduling. Moreover, these systems lack any user interfacecapability and cannot be customized to suit individual consumer's needsso that a consumer must inconveniently wait to potentially viewinformation of interest and then, may not even be provided withinformation suited to their particular interests.

Some systems enable searching of displayed data, such as the title of amovie or the name of a song, associated with stored video data. However,such systems do not facilitate navigation of large aggregates of videomaterial, or navigation within a particular video material entry, suchas a single video program, to enable the consumer to find information ofparticular interest. A consumer will thus often times have to navigatelinearly through a large amount of irrelevant video material in order tofind desired video programming, wasting time and effort. Moreover, suchexcessive navigation likewise requires excessive bandwidth when incommunication with a video server, failing to minimize the timenecessary for video material retrieval, and thereby slowing the networkover which such communication occurs.

SUMMARY OF THE INVENTION

A system and method are provided for content-based non-linear control ofvideo data playback. A multimedia database having multimedia dataincluding multimedia content data is searched based on a user-selectedparameter to determine a first set of multimedia data. The multimediadata includes indices to information pertaining to the informationcontent of corresponding video data stored in a video database. Themultimedia data also includes condensed representations of correspondingvideo data, such as image scenes or closed captioned informationconcerning what was spoken in a image scene. A portion of the first setof multimedia data is displayed at a control device. A user of thecontrol device selects an element of the first set of multimedia datafor video playback and video data corresponding to the element deliveredto a video device for playback. A user of the control device selects anelement of the first set of multimedia data for additional informationand a second set of multimedia data corresponding to the elementdelivered to the control device.

BRIEF DESCRIPTION OF THE DRAWINGS

Further aspects of the instant invention will be more readilyappreciated upon review of the detailed description of the embodimentsincluded below when taken in conjunction with the accompanying drawings,of which:

FIG. 1 illustrates an exemplary architecture for populating a multimediasystem with detailed content specific information;

FIG. 2 is an exemplary network topology for implementing the invention;

FIG. 3 illustrates additional detail of the exemplary network topologyshown in FIG. 2;

FIG. 4 illustrates an exemplary control device screen for specifying thevideo device that is to be controlled;

FIG. 5 illustrates an exemplary control device screen for the mainsearch term selection screen (i.e., “home” screen);

FIG. 6 illustrates an exemplary control device screen for an topics listof exemplary common search terms;

FIG. 7 illustrates an exemplary control device screen of multimedia dataindicating video data relevant to a particular search term;

FIG. 8 illustrates an exemplary control device screen of multimedia dataindicating portions of individual video data relevant to a particularsearch term;

FIG. 9 illustrates an exemplary control device screen of an interfacefor browsing video material that has been close-captioned; and

FIG. 10 illustrates an exemplary control device screen of an interfacefor browsing video material that has not been close-captioned.

DETAILED DESCRIPTION OF THE INVENTION

Referring now to FIGS. 1-10, wherein similar components of the inventionare numerically referenced in like manner, disclosed are embodiments ofan architecture and method for accessing, over a network, user selectedvideo data based on selected multimedia data.

FIG. 1 illustrates an exemplary architecture for populating a multimediasystem with detailed content specific information. Video source material110 is provided to a media analysis/metadata extraction device 120. Themedia analysis/metadata extraction device extracts content specificindex data from the provided video material using automatic mediaprocessing techniques such video indexing and/or audio indexing. Themedia analysis/metadata extraction device converts the video sourcematerial into video data and multimedia data for storage in a multimediadatabase and video database 140. Content specific index data determinedby the media analysis/metadata extraction device is included in themultimedia data. Each logical unit of video source material (e.g., atelevision program, a video-tape, a corporate speech) is broken down bythe media analysis/metadata extraction device into a distinct entry forthe multimedia database and video database.

In addition, the media analysis/metadata extraction device may alsobreak video source material into smaller entries based on topic or storyboundaries of the video source material. The video source material mayalso be analyzed automatically to detect video shot boundaries and torecord any associated closed caption information. Further, automatedspeech recognition, such as Large Vocabulary Automated SpeechRecognition (LVASR) can be used to obtain a transcription for inclusionin the multimedia data. In another alternative, the content specificindex data is extracted from the video data manually, a humanfunctioning as that portion the media analysis/metadata extractiondevice that determines content specific index data.

Video data includes that data used to display the video source material100 on a video device (i.e., the video itself). Multimedia data includesmultimedia content data, which is data based on the content of the videodata, such as content specific index data, for example, an index ofselect keywords referenced in the video data. Examples of multimediacontent data include still images (e.g., images of a scene from amovie), preview videos (e.g., a theatrical trailer), detailedinformation about the video data (e.g., names of actors in a videoprogram, the cinematography of the director of a video program), and thelike. Multimedia data may also include metadata, which is other dataused to index both the video data and multimedia data, such as the titleof a movie, the name of a song, or the like. In addition to creatingmultimedia data, the media analysis/metadata extraction device also maydigitize and compress the video source material for storage on themultimedia database and video database 140. For example, video data maybe stored in a format such as MPEG-1, MPEG-2, MPEG-4, or other formatsand delivered across the network at various bitrates. Preferably,multiple versions of the video data in various formats are stored sothat the highest possible quality version may be later delivered to aconsumer based on available bandwidth and the consumer's video devicecapabilities.

Ancillary source material 120 may also be provided to the mediaanalysis/metadata extraction device 130 to improve the accuracy ofindexing or to utilize other information suitable for indexing andretrieving video data. Examples of ancillary data include offlinetranscriptions, manual annotations, topic classifications,post-production scripts, metadata, genre classifications, and the like.With ancillary source material, the media analysis/metadata extractiondevice 130 would utilize both the video source material 110 and theancillary source material 120 during the conversion into video data andmultimedia data, including content specific index data, for storage inthe multimedia database and video database 140.

For each video data (e.g., television program) in the video databasecorresponding multimedia data is stored in the multimedia database.Multimedia data that may be stored includes a program stream, imageframes and associated metadata (e.g., time within broadcast that theframe was sample, type of video transition) representing each scene,program metadata including title, broadcaster, time and date of airing,closed caption text, automatic speech transcriptions, and various datastructures. For example, to indicating pagination each multimedia datarepresentation of video data can be divided into sets of HTML pages anddata structures established that indicate the number of HTML pages, andthe captions and images that appear on given page. Optionally, themultimedia data that is stored can include an offline transcription thathas been synchronized with the video data.

A number of such sets of video data and corresponding multimedia dataare stored in the multimedia database and video database. Indexservices, (e.g., MS Indexing Service) are used to provide full textsearch capability on either the closed caption text and/or the offlinetranscription. HTML metatags are included with the text so thatrelational queries can be supported (e.g., “find all video datacontaining the term “NASA” from the broadcaster “NBC” that are less thanone year old.”) The system combines the basic closed caption text and orspeech transcription with the metadata to generate files that a severcan use as content for searching. Once video data matching a consumer'squery has been identified, application software generates a content richinterface for browsing the corresponding multimedia data and initiatingvideo data playback.

In this manner, the invention provides a database of informationrelating to video material, facilitates navigation of such information(e.g., a plurality of television programs) and further, facilitatesnavigation with a particular item of such information, such as, aparticular television program. An illustrative example of such adatabase of information is an archive of all television programs in aparticular geographic regions for a seven-day period.

The multimedia database and video database may be individually stored ona multimedia server and video server, respectively. Alternatively, themultimedia server and video server can be one in the same server. Ineither event, the video server and the multimedia server are incommunication with the media analysis/metadata extraction device 130, toreceive video data and multimedia data, respectively. While centralizingthe video database offers economies of scale and eases maintenance, thevideo data can be stored locally (i.e., proximite a consumer's videodevice). Additionally, hybrid embodiments are possible in which some ofthe video data is stored locally and other video data is storedremotely, perhaps in several different geographic locations. Suchembodiments may be organized such that popular or frequently viewedvideo data is stored proximately locally to minimize networkcommunication and congestion. Further, intelligent content distributionnetworks can be utilized to efficiently distribute the video data fromthe video database to consumers.

FIG. 2 illustrates an exemplary network topology for implementing theinvention. At a consumer premises 210, a control device 212 communicatesvia a network access point 214 over a network 216. The control deviceacts as a dynamic control pad for initiating video playback of contentspecific information and may be a suitably programmed Personal DigitalAssistant (PDA) device. The control device is capable of inputtingcontrol command, communicating data, and playing multimedia data suchas, preferably, still images, text, preview videos, or the like.Alternatively, the control device may have capabilities limited totextual display and not be able to play video material. The controldevice utilizes wireless data communications and may employ Bluetooth,IEEE 802.11b, infrared protocols, or other wireless protocols, toestablish communication with the network access point. Alternatively,the control device can be a palm-top computer, a tablet computer, alap-top computer, a desk top computer, or any device capable of displayof the multimedia data and solicitation of consumer input and generatingcontrol queries and commands.

The network access point negotiates data communications between thecontrol device and the network. The network preferably is an InternetProtocol (IP) network and may have bandwidth of 10 Mbps or greater. Thecontrol device communicates with the network and may establishcommunications at a bandwidth lower than that of the network proper, forexample at a bandwidth under 100 Kbps.

Additionally, a video device 218 is located at the consumer premises210. The video device can decode compressed digital video data and maybe a television monitor, computer monitor, or the similar device fordisplay video data. The video device communicates with the network usingcompatible protocols, as is known in the art. The video device maycommunicate with the network through a wireless connection that hassufficient bandwidth to support the playback of compressed digital videodata. There may be more than one video device that may be controlled bythe control device.

Video server 220 stores video database 140 and is interconnected withthe network 216. The video server is capable of indexing and accessingthe video database via methods known in the art. Multimedia server 222stores the multimedia database 140 and is interconnected with thenetwork 216. The multimedia server is capable of capable of indexing andaccessing the multimedia database via methods known in the art. Themultimedia server is also capable of generating content for remotedevices. Together, the video data and the multimedia data comprise thecontent information for utilization by the consumer. During operation ofthe method of the invention, the consumer interacts with the controldevice and multimedia data displayed thereon and observes video datadisplayed on the display device.

From the consumer premises 210, the control device 212 communicates overthe network 216 with the multimedia server 222. The multimedia servermay be located remotely with respect to the consumer premises. In suchan instance, the network may use Wide Area Network (WAN) or othernetwork protocols to route packets between the control device and themultimedia server, as is known in the art. Using the control device, aconsumer is able to selectively retrieve multimedia data located on themultimedia server. More than one multimedia server may be located on thenetwork and communicated with in the same manner.

As described above in regard to FIG. 1, the multimedia data includesmultimedia content data that is content specific data that is based onand corresponds to video data stored on a video server. Each videoprogram having video data stored on a video server will havecorresponding multimedia data pertaining to the content of itscorresponding video data stored on at least one multimedia server. Byviewing the multimedia content data for a particular multimedia data,the multimedia data is not limited to conventional metadata, such as atitle, but also includes information pertaining to the content of thevideo data. A consumer may choose to retrieve a particular video programhaving particular video data to the video device located at the consumerpremises. The multimedia data may be indexed and searched in a varietyof ways, both consumer-defined and/or predefined by indexing software onthe multimedia server. For example, the consumer may search for videoprograms having a particular actor or for video programs located on aparticular video server.

After the user has selected multimedia data in order to view thecorresponding video data for at least one video program, the controldevice 212 communicates with video server 220 over the network 216 toinstruct the video server to retrieve and provide the desired video datato the video device 218. The video server 220 may be located remotelywith respect to the consumer premises 210. In such an instance, thenetwork 216 may use WAN or other network protocols to route packetsbetween the control device and the video server, as is known in the art.

In other embodiments, the video device may be able to download videodata or multimedia data and store such data locally within the videodevice, or utilize some other storage means at the consumer premises forthe same purpose. Further, there may be more than one video server 220located on the network 216, and video data for a particular videoprogram may be located on more than one video server. The video data maybe indexed in a variety of ways, as known in the art. It is alsopossible that the multimedia server and the video server are one in thesame.

FIG. 3 illustrates additional detail of the exemplary network topologyshown in FIG. 2. The control device 212 includes a graphic display 310which displays multimedia data, a display controller 312 which controlsthe consumer interface (display of multimedia data and input of consumerselections in response thereto), and a control device network interface314 which interfaces the control device to the network. The video deviceincludes a video display 316 which displays video data, a video decoder318 which decodes compressed video data, and a video device networkinterface 320 which interfaces the video display to the network. Thevideo server 220 includes a video database 322 which stores the videodata, a request processing controller 324 which handles queries andinstructions to the video server, and a video server network interface326 which interfaces the video server to the network. The multimediaserver 222 includes a multimedia database 328 which stores themultimedia data, a query processing controller 330 which handles queriesand instructions to the multimedia server, and a multimedia servernetwork interface 332 which interfaces the multimedia server to thenetwork. The video server network interface 326, the multimedia servernetwork interface 332, the control device network interface 314 and thevideo device network interface 320 are connected via the network 216.Communication between each of the network interfaces is accomplished asdescribed above and via other methods known in the art.

FIGS. 4-10 are screen views for an exemplary control device and discloseone possible implementation of the invention. The control deviceprovides an interface, such as a Graphical User Interface (GUI), fordisplay of information and solicitation of consumer input/instruction asexplained below in conjunction with FIG. 4-10. For initiation andcontrol of video data playback, application software on the controldevice generates URLs, which pass parameters to a CGI applicationrunning under the HTTP server on the video device. A CGI syntax ofname/value pairs is used for passing parameters from the control deviceto the video device. Parameters include MediaURL, VideoDevice,StartTime, Volume, Reply, and Command.

MediaURL is a URL, URN, or URI indicating the video data stream.VideoDevice is an IP address name or number indicating the video devicethat is being directed to display the video data. StartTime indicatesthe video data play position in units since the start of the video data.Volume indicates volume amplitude on a liner scale. Replay indicateswhether to send a status message response or issue a no responsemessage. The Command parameter may take on one of several values. Thosevalues include play (play the video data at the given StartTime), stop(stop the video data playback and blank the video display), mute (setvolume to zero), volup (increase the volume by a predetermined number ofunits), voldown (decrease the volume by a predetermined number ofunits), volume (set the volume using the given Volume parameter) andpause (stop the video data playback, freezing the display on the currentvideo frame), and other values within the skill of one in the art. Thecontrol device also queries the multimedia server and requests action ofthe video server to commend the search for and delivery of informationof interest to the consumer.

FIG. 4 illustrates an exemplary control device screen for specifying thevideo device that is to be controlled. The control device provides aninput field 410 for the consumer to specify the video device that is tobe controlled. In this example, the user has entered the video devicename “NTV1”. Also provided is a connection button 412, which, uponselection, instructs the control device that the video device indicatedin the input field is to be provided video data. There may be more thanone video device that may be controlled by the control device.Preferably, the control device provides a list of all available videodevices to which the consumer has access. The list of available videodevice may be a predetermined list of device names maintained on aserver. The list may be prepared at the time that each video device isinstalled. In addition, names entered by the consumer or selectedpreviously can be presented to the consumer in a selectable list.Preferably each video device has a friendly name and a correspondingDomain Name Server (DNS) entry that maps the friendly name to anInternet Protocol (IP) address. Alternatively, a protocol similar toAddress Resolution Protocol (ARP) can be used to determine a list ofactive video devices.

FIG. 5 illustrates an exemplary control device screen for the main or“home” screen after the video device selection. Command icons forcontrol of the control device are located at the top of the displayscreen. These icons are linked via CGI URLs to control commands for stop510, pause 512, volume up 514, volume down 516. The command icons can beimplemented as an HTML frame. Preferably, these icons remain at the topof the screen after a video device has been selected for control so thatthe consumer may assert control commands regardless of where theconsumer is in a navigation session. Input fields are provide so thatthe consumer may enter a search term 518, and may restrict the search toa particular broadcaster 520, program 522 or date range 524. A searchbutton 526 is also provided, and which, upon selection, initiates asearch of multimedia data based on the input search term. An input field528 for control the sorting of the result of a search of the multimediadata is preferably provided. Links for searches of the “latest news” 530and hot “topics” 532 are also provided. Additionally, command icons formute and other functions can be included with the icons illustrated.Further, a button for linking to a conventional numeric keypad displaycan be added to permit the consumer to easily select a live broadcastchannel. A display of a status message indicating the currently playingcontent (perhaps by title and some indication of the playing time) canalso be provided. Such a message can be displayed in a persistent mannersimilarly to the command icons.

FIG. 6 illustrates an exemplary control device screen for a hot “topics”list of exemplary common search terms. When the consumer selects the“topics” link (532), the consumer is provided with links 610 listingcommon search terms. If one of these hot topic links 610 is selected,the control device undertakes a search as if the term was entered intothe search term input field (518).

FIG. 7 illustrates an exemplary control device screen of multimedia dataindicating video data relevant to a particular search term. After asearch term has been instructed (e.g., either by entering a search termon the main screen and clicking search button (518, 526) or by selectinga link on the topic list (610)), a search of the multimedia data,specifically content specific index data, is undertaken and a listing ofmultimedia data describing, in some manner, video data relevant to thesearch term is displayed. Multimedia data displayed may include aprogram name, date and time of airing, network aired on, and the like.The display of this multimedia data conveys a summary or condensedrepresentation pertaining to the content of the video data for browsingand serves as a dynamic control pad for initiating of video dataplayback. The consumer then selects a particular video data (e.g., atelevision program) of interest from this displayed list of condensedrepresentations pertaining to the content of the video data.

FIG. 8 illustrates an exemplary control device screen of multimedia dataindicating information pertaining to the content individual video dataentries in the video data database that are relevant to a particularsearch term. After selecting a particular video data (e.g., a program)from a first list of multimedia data, such as condensed representationsof programs (FIG. 7), a second list of relevant multimedia dataextracted from selected video data is displayed. In the illustratedexample, “NASA” was the search term and the system has selectedmultimedia data, for example, excerpts of pictorial transcriptions 810,that contains the term “NASA”. If the consumer selects one of thedisplayed excerpts, the video data corresponding to the excerpt will beprovided to the video device for playback at that point in the videodata corresponding to the selected excerpt. If the consumer selects anarrow icon 812, additional multimedia data, for example the fullpictorial transcription, of the selected excerpt is displayed as shownin FIG. 9. Using the full pictorial transcription displayed in FIG. 9,the consumer may scroll the display and select a other non-linear pointsin the video data (e.g., program) at which to initiate video dataplayback on the display device.

If the consumer selects the “Latest News” link (528), a list ofmultimedia data pertaining to the content of the most recent video data(e.g., most recently aired video programs) in the video database will bedisplayed in reverse chronological order. Such a list would appearsimilar to the list illustrated in FIG. 7. Upon selecting from this listof multimedia data, a particular video data of particular interest, theconsumer may be directly provided with the full pictorial transcriptionof the selected excerpt as shown in FIG. 9.

FIG. 9 illustrates an exemplary control device screen of an interfacefor browsing video material that has been close-captioned. The browsingcapability includes a display of multimedia data, such as text extractsand corresponding key frame images, with hyperlinks for navigation toother points of interest within the video data corresponding to thedisplayed multimedia data, or other multimedia data additionallyrelevant video data of interest. Templates through which the applicationsoftware of the control device maps the multimedia data govern the formas well as the appearance of the multimedia data.

FIG. 10 illustrates an exemplary control device screen of an interfacefor browsing video material that has not been close-captioned orotherwise transcribed. In the illustrated example, the displayedmultimedia data is arranged into a series of thumbnail images 1010 or“contact sheets.” The consumer may scroll the displayed thumbnailimages, which are representations of non-linear points within the videodata, and select a particular point in the video data (e.g., videoprogram), corresponding to the displayed multimedia data, at which toinitiate video data playback. Video data playback is initiated at thepoint in the video data corresponding to the selected thumbnail image.

It is the intent of the invention to provide a system and method thatfacilitates searching and browsing of video material. FIGS. 1-10describe a system and method for accessing multimedia data and videodata that facilitates navigation of a large aggregate of video material,and further, navigation within a particular selection of video materialon a server or a database. By allowing a consumer to see a condensedrepresentation of video data conveyed by multimedia data, includingmultimedia content specific data, the consumer is able to make informeddecisions as to the relevance or desirability of retrieving and viewingan entire video data entry. Such a system minimizes requests forirrelevant video material, thus minimizing the load on the network,maximizing available bandwidth, and saving consumer time and expense.

The invention enables the creation of user-friendly, network-based,video-on-demand entertainment and information services. It findsapplication in self-contained home entertainment system and pay-per-viewvideo services on-the-go (e.g., airport) where a consumer uses a controldevice to find/select video or multimedia content to be delivered to aseparate device.

It should be understood that, for convenience, the above description isrepresentative of embodiments according to the principles of theinvention without exhaustively enumerating all possible embodiments.Other embodiments may result from combination of various alternativeembodiments described herein and, as will be appreciated, are within thescope of the following claims. The figures described herein are forillustrative purposes only, it being possible to implement the inventionwith user interfaces that differ considerably in appearance from the onedepicted here. In fact, it would be desirable to have a plurality ofinterfaces that are customizable based upon the preferences of user orthose of content providers or broadcasters.

What is claimed is:
 1. A method comprising: receiving, from a user, asearch term; transmitting the search term to a database associated witha plurality of media content, wherein the plurality of media content isindexed; receiving, from the database, matched media content associatedwith the search term; receiving, from the user, a choice from thematched media content to yield a selection, the choice indicating adesire of the user to play the selection; and transmitting the selectionto the database.
 2. The method of claim 1, wherein the plurality ofmedia content is indexed by at least one of a title, a length, a rating,and a scene.
 3. The method of claim 1, wherein the search term isreceived as an utterance.
 4. The method of claim 3, further comprisingconverting the utterance to text via automatic speech recognition. 5.The method of claim 1, wherein the database comprises ancillary dataused to index the plurality of media content.
 6. The method of claim 5,wherein the ancillary data comprises at least one of offlinetranscriptions, manual annotations, topic classifications,post-production scripts, metadata, and genre classifications.
 7. Themethod of claim 1, further comprising displaying the matched mediacontent to the user to make the choice.
 8. The method of claim 1,wherein the transmitting of the selection of the database triggerspresentation of the selection on a separate device.
 9. A systemcomprising: a processor; and a computer-readable storage medium havinginstructions stored which, when executed by the processor, cause theprocessor to perform a method comprising: receiving, from a user, asearch term; transmitting the search term to a database associated witha plurality of media content, wherein the plurality of media content isindexed; receiving, from the database, matched media content associatedwith the search term; receiving, from the user, a choice from thematched media content to yield a selection, the choice indicating adesire of the user to play the selection; and transmitting the selectionto the database.
 10. The system of claim 9, wherein the plurality ofmedia content is indexed by at least one of a title, a length, a rating,and a scene.
 11. The system of claim 9, wherein the search term isreceived as an utterance.
 12. The system of claim 11, thecomputer-readable storage medium having additional instructions storedwhich result in the method further comprising converting the utteranceto text via automatic speech recognition.
 13. The system of claim 9,wherein the database comprises ancillary data used to index theplurality of media content.
 14. The system of claim 13, wherein theancillary data comprises at least one of offline transcriptions, manualannotations, topic classifications, post-production scripts, metadata,and genre classifications.
 15. The system of claim 9, thecomputer-readable storage medium having additional instructions storedwhich result in the method further comprising displaying the matchedmedia content to the user to make the choice.
 16. The system of claim 9,wherein the transmitting of the selection of the database triggerspresentation of the selection on a separate device.
 17. Acomputer-readable storage medium having instructions stored which, whenexecuted by a computing device, cause the computing device to perform amethod comprising: receiving, from a user, a search term; transmittingthe search term to a database associated with a plurality of mediacontent, wherein the plurality of media content is indexed; receiving,from the database, matched media content associated with the searchterm; receiving, from the user, a choice from the matched media content,the choice indicating a desire of the user to play the selection; andtransmitting the selection to the database.
 18. The computer-readablestorage medium of claim 17, wherein the plurality of media content isindexed by at least one of a title, a length, a rating, and a scene. 19.The computer-readable storage medium of claim 17, wherein the searchterm is received as an utterance.
 20. The computer-readable storagemedium of claim 19, the computer-readable storage medium havingadditional instruction stored which result in the method furthercomprising converting the utterance to text via automatic speechrecognition.